EP1973203B1

EP1973203B1 - Electrical connector having lever with protective shroud

Info

Publication number: EP1973203B1
Application number: EP20080102822
Authority: EP
Inventors: Jeremy Christin Patterson; Randy Gray Simmons
Original assignee: Tyco Electronics Corp
Current assignee: TE Connectivity Corp
Priority date: 2007-03-22
Filing date: 2008-03-20
Publication date: 2015-05-06
Anticipated expiration: 2028-03-20
Also published as: EP1973203A2; CN101304137B; US20080233790A1; CN101304137A; MX2008003851A; ES2539949T3; US7467958B2; EP1973203A3

Description

The subject application relates to electrical connectors and more specifically to electrical connectors having a mating assist feature such as a lever, to draw complementary connectors together.
In certain applications, electrical connectors must be securely mated to one another to prevent disconnection of the electrical signals routed through the connector conductors. In those same applications, it is desirable that the connectors be fully mated.
For example, in automotive applications wherein electrical signals are routed to safety equipment such as air bag deployment systems or other systems relating to the operational or safety features of the vehicle, disconnection of the electrical signals as a result of accident, negligence, or operating conditions such as vibration, etc. may result in undesirable consequences. These connectors systems further require assistance in mating, as multiple pairs of contacts are being connected. Thus, the mating force can be too high for the operator, or mechanic in the case of automotive applications, to accomplish by hand.
Also, many automotive standards have force test requirements whereby forces are exerted on various components of an electrical connector assembly and the connectors must withstand the forces applied. The problem is that one of the many requirements in connector applications, particularly in automotive applications, is to rigidify all of the latching and/or mating features of the complementary pair of connectors, such that the connectors may withstand certain forces and not be broken or the electrical connection degraded.
US 5,938,458 discloses an electrical connector assembly including an actuator connector, a mating connector, and an actuating lever. The actuator connector has a housing and support walls, and arms of the actuating lever are sandwiched between the housing and the support walls. The actuating arms have cam grooves for receiving cam posts of the mating connector, and for drawing the mating connector into a mated condition when the actuating lever is rotated.
The solution is provided by an electrical connector assembly according to the appended claim 1.
The invention will now be described by way of example with reference to the accompanying drawings in which:
Figure 1 is a top perspective view of the electrical connector assembly of the present invention;
Figure 2 is a lower perspective view of the connector assembly of Fig. 1;
Figure 3 is an exploded view of the assembly of either Figs. 1 or 2;
Figure 4 is a perspective view similar to that of Fig. 1 showing the lever in position to be received in the connector housing of the embodiment of Figs. 1 or 2;
Figure 5 is a perspective view of the lever shown in Fig. 4; and
Figure 6 is a figure showing the wire dress cover exploded from a connector housing.
With reference first to Fig. 1, an electrical connector assembly is shown at 2 which generally comprises a housing member 4, a wire dress cover 6 and a mating assist member 8 in the form of a lever. As shown in Fig. 2, the housing member 4 is generally comprised of a front mating face 10, sidewalls 12 and 14, end walls 16 and 18 and a top wall at 19.
With reference now to Fig. 3, the connector assembly 2 will be described in greater detail. As shown in Fig. 3, housing member 4, wire dress cover 6 and mating assist member 8 are shown exploded away from each other but poised for connection thereto. The assembly 2 further comprises a terminal position assurance member (TPA) 20, a peripheral seal 22, a mat (or interfacial) seal 24, a mat seal cover 26 and a connector position assurance member 30. All of these items will not be described in detail in this application, but are further described in simultaneously filed patent applications, US Serial Nos. 11/810,288 and 11/810,232 .
With reference now to Figures 1,4 and 6, housing 4 generally includes a shroud 36 formed on each sidewall 12 and 14, where shroud 36 includes a shroud wall 38 (Figure 4) spaced apart from sidewalls 12 and 14 by way of walls 40. Shroud wall 38 is spaced apart from sidewalls 12 and 14 to form an opening 42 for receipt of the mating assist member 8 as described herein. An outer surface of shroud wall 38 includes a receiving area generally shown as 44 which includes a U-shaped recess 46 having an elongate slot 48 extending along the length of the U-shaped recess, which opens into an enlarged opening 49. An inside surface of the shroud wall 38 includes a channel 50 and a stubbing surface 52, for the proper receipt of the mating assist member 8 as described herein. The sidewalls 12 and 14 include a bearing bar 58 in alignment with the elongate slot 48 as described herein. A lower edge 60 of shroud wall 38 is shown generally as including an arcuate shape.
With reference now to Fig. 5, mating assist member 8 generally includes individual lever arms 70 with a connecting member 72 forming a lever handle where each of the lever arms 70 includes a free end at 74. The individual lever arms 70 include mating assist portions 76 located on the inside surface of the lever arms, and which are preferably in the form of gear teeth such as 78 to drivingly engage complementary gears on a complementary header connector (not shown) to draw the two connectors into mating engagement. Mounting studs 80 are positioned on the opposite sides of the mating assist portions 76, and are receivable in U-shaped recesses 46 as described herein. The mounting studs 80 include shank portions 82 having flattened sidewall portions 84 with an enlarged stud 86 positioned above shank portion 82. A projection 88 is positioned on an outside surface of the lever arm adjacent to the shank portion 84. Finally a lever protrusion 90 is positioned outwardly of the mounting studs 80, towards the free end.
With reference again to Fig. 4, mating assist member 8 is shown poised for receipt within the housing. When installing mating assist member 8 within shroud 36, protrusions 90 are positioned within channel 50 which orients the mating assist member 8 in the proper direction relative to housing 4. Stubbing surface 52 prevents incorrect assembly of the mating assist member 8, if it were attempted to install the mating assist member 8 backwards. After installation of the mating connector, movement of the mating assist member 8 towards end wall 16 of housing 4 positions flattened sidewall portions 84 of shank portion 82 within slot 48 (Fig. 6) of the receiving areas 46.
When the shank portion 82 reaches the enlarged opening 49, lever protrusions 90 will snap past the edge 60 of shroud 36 and be trapped thereby as shown for example in Fig. 2. Thus, the projections 90 are positioned beyond arcuate surfaces 60 and retain the mating assist member 8 within shroud 36, during the pivotal movement of mating assist member 8. Also in this position, shank portion 82 is received within the circular opening 49 allowing the lever to be moved clockwise and counterclockwise but yet be trapped in place by lever protrusions 90 on each side thereof. The mating assist member 8 may be removed by depressing the projections 90, to allow the lever arms 70 to be withdrawn from the receiving areas 44. Also when in this position, the inside surface of lever arms 70 are positioned adjacent to bearing bars 58 (Fig. 4) and together with projections 88 which are interference fit against an inside surface of wall 38, take up any clearance, so that there is no rattling between the lever arms 70 and the housing 4.
As the lever assist member 8, and the mating assist portions 76 are positioned inside the shroud 36, these members are protected thereby from forces acting upon them.

Claims

An electrical connector assembly (2), comprising:
a housing (4) having a front mating face (10) and side walls (12,14), the housing having a plurality of terminal receiving cavities extending therethrough, the housing having a shroud (36) positioned on each sidewall comprising a wall (38) spaced from said sidewall forming a receiving area (44);

a lever (8) rotatably connected to the housing, the lever comprising individual lever arms (70) which reside adjacent to the sidewalls (12,14) and are received in and through the receiving area (44), the lever having mating assist portions (76) adjacent to free ends (74) of the lever arms being protected by the shrouds (36); and

characterised in that the lever arm (70) includes a protrusion (90) upstanding from the lever arm, which extends beyond a lower edge (60) of the shroud wall (38).
The electrical connector assembly of claim 1, wherein the lever arms (70) include mounting studs (80) which are received in the receiving areas (44) in the shrouds (36).
The electrical connector assembly of claim 1 or 2, wherein the shroud (36) comprises a shroud wall (38).
The electrical connector assembly of claim 1, wherein the lower edge (60) of the shroud (36) is arcuate in shape, and the protrusion (90) extends beyond the shroud lower edge (60) and retains the lever (8) within the shroud (36).
The electrical connector of claim 1 or 4, wherein an inner surface of the shroud (36) includes a channel (50) for receiving the protrusion (90) therethrough when the lever (8) is properly oriented.
The electrical connector of claim 5, wherein the inner surface of the shroud (36) includes a stubbing surface (52) for abutting the protrusion (90) and preventing the lever (8) from entry into the opening when the lever is improperly oriented.
The electrical connector of any one of claims 3 to 6, wherein the receiving areas (44) comprise U-shaped recesses (46) recessed within an outer surface of the shroud walls (38), with an elongate slot (48) within the recess.
The electrical connector of claim 7, wherein the housing sidewalls (12,14) include a bearing bar (58) positioned in alignment with the elongate slot (48), which allow sliding engagement with the lever arms (70).
The electrical connector of claim 1 and claim 7 or 8, wherein the mounting studs (80) each comprise a shank portion (82) receivable within the elongate slots (48) and an enlarged stud (86) received in the U-shaped recesses (46).
The electrical connector of claim 9, wherein the lever arms (70) comprise a projection (88) adjacent to the mounting studs (80) and are profiled for interference fit against an inner surface of the shroud (36), and take up the clearance between the shroud and mounting stud.
The electrical connector of any preceding claim, wherein the mating assist portions (76) are located on the inside surfaces of the lever arms and are in the form of gear teeth (78).